Cylinder machine



May 30 1950 P. H. GoLDsMlTl-i t 2,509,296

CYLINDER MACHINE Filed Feb. 3, 1945 l2 Sheet'S-Sheet l May 30, 1950 P. H. GoLDsMlTx-l CYLINDER MACHINE 12 she'etssheet :a

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H n M S D L o G H R CYLINDER MACHINE Filed Feb. 3. 1945 l2 Sheets-Shree?f 6 3U, 1950 1P. H. GoLDsMITl-n 509,396

CYLINDER MACHINE i Filed Feb. I5, 1945 l2 Sheets-Sheet 7 @y Il M50 P. H. GOLDSMITH CYLINDER MACHINE 12 Sheets-Sheet 8 Filed Feb. 3, 1945 MW m9 W5@ P. H. GoLDsMlTz-n 2,509,296

CYLINDER MACHINE Filed Feb. 3. 1945 l2 Sheets-Sheet 9 @y 1950 P. H. GoLDsMn-H 2,509,295

CYLINDER MACHINE Filed Feb. s, 1945 12 sheets-sham 1o P. H. GOLDSMITH 2,509,29

CYLINDER MACHINE 12 Sheets-Sheet ll P. H. GOLDSMITH CYLINDER MACHINE Filed Feb. 5. 1945 Patented May 30, 1950 UNITED STATES .CYLINDER Philip H Gilldsmth, Wilming'mlh 11815 Application Eebruary 3, 12h15,` Serial No,. .5l'75,i)8V 1 e 15 Claims. (ci. :i2-43) l 2 This `imfennifmneleisee io peper ine- Figure 23 iee; rizelieieeeiionef Chimes efihe minder @me and nee iis. m iieii e eeylied melden@ edieeeiii van objeeeehe provieienefemeehiue eenebleeiiem-1 Figure 2i e.` eeeiieri euleeieiziielly lille ing a uniform .web et .much higher SQeedeeriQ/Qr iieiieiifieiire with a Wider range. DfSiQC1SS,.therl he? 5" E" ,lle 25 ei Stiil Subfieiliiflly 9.11 .119@ sible. The impreveiperfermeneeie eden, el: ile-r91?Fiei1-ie- 23i` ble by@J number orfeeiunes, neieblyenew 1,1191@ Figye 26 eeeiion'ei @reinicie-rel elementi construction, meid elrivemeene, and veeiiilm e Whig eppeersin ,Ellie 2,3, pressurebex arrangement, mi Figure?? ,iiielleieveiien Qie eenerieeme struction involving an adjustable cigle,Y w f Inglgz iusiebledezn ier-.the circulating eieeekeeee eied @releer-i.,eeeiieneueeieuiielly, with the cicale, and `teleseoping spill gaies i i191 iii@ F white Water. These en@ eine; ieeiure @Mme movement ,are in ,pleeiieel mbeeiimeiii in the accompenyingurawinee, r

Figure 11e plan new .of the new ,e7 ef @spill ehe. Fieurezisanend elevation, ieleen Figure 3 a, sideyeleyetm niinggside, of the spill chamber of Figure 30 and gagigphei Figure 4 e, eideeleveiien eeieie, spiliehember ei teefelepeeiieeiiefeiih Figure 5 is veeeetion .substantially 0ii. i1 r 1 e l 5e-e5 gp i lowerlpei- OfFieilreZ, Qi-.Figuie .,0 miki-eerie Figure `6. is i euseetion substantially en liilezlf f1 QflFguref,

`Figure 711e elpienfviewef vaeuuinbQxsirueiuref Figure .aise eideeleveiignei the Streetwise 2 5 Shown in Figure?, Fieiiieeis end eleeeiien 0i me Siriwiureef Figures 7 and 8,

Figure 10 is e Seeiien ,Subeteiiiieily @eline lli- I0 of Figure 7, 30

Figure 11 ie e Section Substantially en line l `L-I I of Figurel,

Figure ,12 is e `Section Substantially 01.1 .line .12e-l Zef Figure 'lf Figure 13 is e Section subsieniieliy .en line a5 `IIiM- iof Figure?,

` eepiuplete system inf Figure 14 is a, section substantiglly Online ofinA lgy byk I4-I4 of Figure?, buiislihe iieelieeel efe Spill' Figure 15 ie eneleveiien 0f e peri 0i e vet-.inner 5? whiehis belted ieeiidifeims; ,Peri lllem.- eide-well, fie eerie.l ,Memberierieeeiiee ene, eeieeineeuehe Figure 16 is a, side elevation ofthe back fhea1l-`of qui; `its sigle b cttgq;` gqgggx its '10Qg-,gjlqfi` figg an adjustable vai; circle, butting the longitudinal base membepfih A" Figure i17 is e section Subsieniielly eil line Befereilee numeral iliesielrzieies eeeiiiielfwell une Ii-el 1 of Fieurele memberT on .ineerieeene `-efule meehme henne `Figure 18 is em elevation ef vertical SuDPQrtillg 555 Vertical flange, i514 leiiingilfiefiiigif slide for the back head, ber i1 and,lcgiecll melig-Lio `agrumiligamiigiil u Figure 19 is an .elevation of the upper pcg-tion the uerisicaliae 515I gf` ,pjli @r v@9V o f the sldeof Figure 18 als seen from ,the righi; p f which toxins; @rief member-45, 'Mem the leiter, end 5.3, es willbeleierfexeiidisf lenferi! Figure 2O is an elevation of ahorzontal aljusr 1,59 andthe Vacuum bmg ,sjjructure ,f rinng l meende ferehebeek heed, erige i wriieheee eeeedily ee. @einen Figure 21 is an elevation of 'che slile of Figure or remuved.` 42 0 es Seen from the righi 0i Jhe leiter, Referring.; ueiiie,ulii ilyl tu Figure 5, reference 4Figure 2 2 isa `Giese-eeeiien of apreesure numeral ildesieneies @fused omer eiree which ber, 55 .supieeriesl ilelzween A the these I ueiililenei2` am 3 43 and the end wall portions 44 and 41, the circle being substantially concentric with the cylinder from an inlet 59, which extends the full Width of the vat, around to a point 68 from which point the circle bulges outwardly into a portion `6| of smaller radius.

Reference numeral 52 designates an inner Vat circle formed of flexible sheet material, preferably stainless steel, Monel metal, or bronze. At its left end, Figure 5, the sheet is looped to provide a tear drop formation or front head 63 in which is disposed a tubular member 64 of oblong section which extends between closed side walls, as at 65, of the head 83, the ends of tube 64 being open. Desirably, seals can be provided around the ends of tube 64v for contact with the inner side walls of the vat whereby to prevent the entrance of stock into the tube. Disposed along the outer inclinedmargins of the tube 64 are aV pair of racks as at 66 which are arcuate substantially on a center 61 below the cylinder.

Reference numeral 68 designates a Shaft extending through the tube 64 and journalled in the vat wall portions @d and d1, the shaft having fixed thereto gears as at 69 which engage the racks as at 66. On the tending side, shaft 68 has xed thereto a worm wheel in a housing 10, the worm wheel being engaged by a Worm in a housing 1|, the worm being mounted on a shaft which has a squared projecting end 12 which is engageable by a suitable wrench. By rotating shaft 12, the gears as at 69 can be driven in either direction to adjust the front head 63 of the inner circle between the full and dotted line positions shown, the two sets of gears and racks holding the head square across the vat. Wash-out doors for the tube 64 are shown at 13 and 14, Figures 3 and 4.

Referring to Figures 5 and 15 to 21, the circle 62 at its other end is fixed to a back head 15 which comprises open side frames 16 and 16a. which are connected at the left by the upper portion of the circle and otherwise by walls 11, 18 and 19. The openings 89 and 80a of the side frames are connected by a tube 80', Figure 17. The outer faces of the side frames are provided with grooves 8l, 82, and Bla, 82a, which are arcuate substantially about the point 61.

Reference numeral 83 designates an arcuate groove in the vat wall portion 48, the contour of the groove being shown also at 84 in Figure 4, the groove being arcuate substantially about the mold center. Reference number 85 designates an arcuate slide disposed in the groove 83 and having an arcuate key 86 slidable in the way 8| and a pin 81 slidable in the way 82. Slide 85 has an elongated opening 88 on the inner side of which is a series of rack teeth 89 which are parallel to the edges of the slide. An exactly similar slide is arranged in a way in the opposite side wall of the vat, its contour being designated at 90, Figure 3.

Slidable on parallel rails as at 9|, 92 and, 9|a, 92a of the side frames 16 and 16al are slides as at 93, Figures 5 and 20, these having openings as at 94 provided with a series of rack teeth 95 which are arcuate substantially on the center 81. A shaft 96 is journalled in the vat side walls and has gears as at 91 engaging the racks as at 89 of the slides as at 85. A shaft 93 journalled in the vat side walls is equipped with gears as at 99 engaging the rack teeth as at 95 of the slides as at 93. The shaft 96 has a worm fixed thereto in a housing |99, Figure 3, and engaged by a Worm which has a squared operating shaft |0| projecting from a housing |92. Shaft 98 has a similar worm wheel and worm connection, the worm shaft having a projecting squared end |93 shown as engaged by a reversible ratchet wrench |94 which is also applicable to the shaft ends 12 and |9I. Shafts 96 and 98 both pass through the openings as at 88 in the slides as at 85, while shaft 93 also passes through the openings as at 98 of the slides as at 93.

As shaft 96, Figure 5, is rotated clockwise, the slides as at 85 are moved equally upwardly carrying the back head and lifting the attached end of the inner circle. During this adjustment the slides as at 93 remain stationary, the end frames sliding upwardly relative to them. The gears as at 99 are held in mesh with the rack teeth due to engagement of the shaft 98 with opposed locating anges, as at |05, of the slides as at 93. As shaft 98 is turned in a counter-clockwise direction, Figure 5, the slides as at 93, and therewith the entire back head are carried toward the mold as guided by the key and groove connections with the slides as at 85. With the maximum inward adjustment at both ends of the inner circle and with maximum vertical adjustment of the back head 15, the circle will occupy the dotted line position shown in Figure 5. The point 61 is midway between the two extreme positions of the inner circle on a vertical radius of the mold,

Considering the parts as occupying the position shown in Figure 5, inward and upward adjustment of the front head 63 will not substantially affect the bottom portion of the inner circle, and this adjustment can be read on a scale |06 from a pointer |91 on shaft 68, Figure 3. Similarly, if shaft 98 is turned to move the back head 15 from the position shown in Figure 5, the bottom of the inner circle will not be materially aected and the adjustment can be read on a scale |98 from a pointer |09 on shaft 98. In order to adjust the bottom circle, shaft 96 is turned and this will not substantially affect the circle otherwise. This is because the back head moves in a path substantially concentric with the mold. This adjustment is registered by a pointer H9 fixed on shaft 96 and cooperating with a scale The side edges of the inner circle between the heads have a slight clearance with the smooth inner surfaces of the vat side walls and consequently distortion due to frictional drag is prevented and the inner circle, supported only at its ends, always takes a definite contour, i. e., flexure curve, as determined by the head adjustments.

The inlet opening 59 is defined by a front wall I2 which depends from a rounded formation at the leading edge of the fixed circle 58, and the side walls of the inlet opening are defined by inner face portions of base elements 42 and 43. The lower end of the opening is in connection with a feed section H3 which, like the opening 59, extends the full width of the vat. At the juncture of walls 11 and 18 of the back head 15, there is provided a fitting H4 having a downwardly opening horizontal cylindrical channelv ||5 in which is engaged a cylindrical rod ||6 which carries a sheet or curtain ||1 having a horizontal hinge connection H8 with a sheet or curtain I|9 which is held slidably against the rear wall of feed conduit H3 by means of guides as at |29 fixed to the front wall of the conduit. The curved bottom wall 11 of the back head and curtain portions ||1 and ||9 constitute the back Wall of the inlet opening. Due to the hinged urtain portions, the back wall is self-adjusting with the back head. To avoid air binding at the top of the inlet, a vent tube 11 is led from an opening in wall 11, at its highest point, through and alcove the top wall 15 of the back head. Otherwise, the inlet could not rise above the bottom level of the adjustable circle.

The stock rises in the inlet opening 59 and flows between the outer and inner circles in the direction of the arrows and over the front head which constitutes a making board. The curve 6| is designed with reference to the front head 63 to bring the ovv quietly over the head, the top of the curve preferably not exceeding 45 from the vertical so as to avoid a ledge under which foam could accumulate. The stock then ilows in the direction of the arrows between the inner circle and `the mold and rises to a height `determined by a circulating stock dam.

Reference numeral |21 designates a vat end Wall extending between vat portions V42, 43 and 45 and 45, thus closing the end of the vat from top to bottom. Pivoted in brackets as at |22 which project inwardly from near the top of wall |2| is 'a rock shaft |23 which has fixed thereto adjacent the vat sides, arms as at |24, Figure 5, whose free ends are pivoted to bars |25and |25 which have longitudinally extending guide slots |25` and |25. Also pivoted to bars |25 and |26 are links 23 and |29 whose other ends are pivoted to the vat sides so that a parallelogram arrangement with the arms as at |24 is provided. Shaft |23 extends through the vat side wall at the tending side, Figure 3, and has xed thereon an `arm |30 having a forked slotted end engaging trunnions on a nut |3| engaged with a threaded vertical shaft |32 which is journalled on the side member 45 and is equipped with a reversible ratchet wrench 133. By suitably rotating shaft |32, nut |31 is moved up or down to correspondingly swing arm 135 and rock shaft |23 so that the bars |25 and |25 can be lifted or lowered, always in horizontal position.

Reference numeral |34 designates a `plate or curtain having a top angle |35 provided with pins engaged in the slots of bars |25 and |25. The side edges of curtain |34 are guided at their lower ends in grooves |35 and |31, Figures 5 and 17, in the side frames 15 and 16a of the back head 15. Regardless of the position of the back head, curtain |34 can be liited and lowered by rocking shaft |23 and the adjustment can be read on a scale |33, Figure 3, with which cooperates a pointer |69 at the free end of arm |35. Also, with the curtain at any adjusted elevation, the back head can be freely moved horizontally and vertically due to the sliding provisions. The range of adjustment oi the bars |25 and |26 and of the back head is such that there will be no jamming of parts when the former are in their lowest position and the latter is in `its topmost position. In Figure 5, curtain |34 is at top adjustment somewhat higher than it would be in actual use. The ordinary liquid level in the vat at the making board side is indicated by the letter Z, and at the overflow side by the letter Z.

The stock overflowing the dam constituted by the curtain |54 passes into a chamber |4, Figures 1 and 5, dened at its rear by the vat wall |2| and at its iront by the curtain |54, the back head 15, and the curtain portions ||1 and H9, the sides of the chamber |46 being defined by the inner surfaces of the vat side wall members 45 andd and of the base members 42 and 43. The stock level in chamber |46 will `'generally be about Yas indicated by the line 1; 'Chamber |40 has an lelongated `bottom opening |4| in connection with an adapter |42 which changes, with substantially honstant `cross-sectional area, to thedi'ameter `of the circulating stock pipe.

Reference numerals |43 and |44, Figure 6, designate `white water chambers at the ends of the mold, these beingfcor'mected by cored `conduits |45and |46 with the ends of a white water cross pipe |41 whose extremities are closed by wash out doors |148 and |49. Reference numeral |56-, Figures 1, 2 and 5, designates a center `connection from the pipe |41 to a white water dow-n pipe l5 Adjacent the White water chambers |43 and |44 are white water spill chambers |52 and |53, Figures land 30 to 32. The chamber |52 is dened by the member 45 and the `cover plate 52 and Vhas a re'ar wall |54 which is an integral part `of member 45. LChamber |52 comprises a lower portion |52' cored in the longitudinal member 42.

Opposed vertically extending grooves |55 and |56 extend from the top of the vat to the bottom of 'chamber |52 and slidably `receive a telescoping gate |51. Gate |51 comprises a top section including a rectangular plate |53 and a strip |59 secured along its top margin, the plate and strip lling the grooves |55 and |56 transversely with a loose sliding lit. Secured along the `lower margin of plate |58 on the sa'me `side `as strip |59 is a strip |65 which is engaged under a similar strip itl securedalong the top margin of a rectangular plate |52. Secured along the opposite top margin of plate |62 is a strip `Iag'ving a loose 4sliding t in the guide grooves. Secured along the lower margin `of plate `|62 at the same side as strip |61 is a similar strip |64, and secured along the opposite lower margin of plat-e |62 is a `still `narrower strip |65 which takes under a similar strip |65 secured along the top margin of a rectangular plate |61. Secured along the bottom margin of plate |61 `-on the "same side as strip |56 vis a strip |63 whichis of the same width as the first strip |59;

In Figure 32, the gate `sections are shown in fully telescoped relation entirely within chamber portion |52 and resting on a iiller block |69. If the top section is pulled upwardly, its strip |60 will eventually engage Istrip |6| of plate |62 and the latter will be pulled upwardly, its strip y|65 eventually engaging strip |65 and pulling plate |61 upwardly.` With the gate all the way up, the top section abuts a filler block |10 xed in the top of the guide grooves. To prevent any tendency for the sections to `stick together so that the bottom section wouldbe pulled above the bottom of thewhite water chamber at the end of the mold, the bottom strip |68 maybe provided with pins as at |11 which will engage nxed lug portions as `at |12. In Figure 311, reference numeral |13 designates the lower section of a telescoping gate, exactly like the gate A |51, arranged in the chamber |53,"and in Figure 1, reference numeral |14 designates aiiller block at thetop of theguide grooves of chamber l| 53.

Reference numerals |15 and |16 designate brackets fixed to chamberwall 4| 54 and to the back wall of. `chamber portion '|52' and rotatablysupporting the ends of a screw shaft '|11 which engages a nut |18 having a horizontal pivotal connection |19 With a fitting i480 xed to plate |58. Fixed to the lower end of shaft |11 is a bevel pinion ISI. Reference numeral |82 designates a similar screw shaft for 'the drive of the gate of chamber Vlas, snaftllez having apevel pinion iss x'ed to "its lower end. Piiiiis 118| and "|83 engage bevel pinions |84 and |85 on'a suitably jour: nalled cross shaft |89, the shaft, for convenience of installation, including a central portion |81 supported in bearings |88 and |89. The central shaft portion is connected to end portions |92 and |93 through jaw couplings |94 and |95. Fixed to the shaft end I|92 on the tending side of the machine, Figure 3, is a sprocket |94 engaged by a chain |95 which runs to a sprocket adapted to be driven by a hand wheel |93 rotatable on a stud |91 which projects from the spill chamber cover plate 52. By turning the hand wheel, the two gates are simultaneously and equally adjustable between the fully extended relations shown in Figures 30 and 31 and the fully collapsed relation shown in Figure 32. With the described interengagement or the gate sections, the gates can be of slight thickness so that little space is required for them. In order that the liquid level inside the mold may be readily observed, cover plates 92 and 51 may be provided with vertically extending transparent windows |98 and |99 which may be provided with scales, lights being provided in the upper ends of the spill chambers.

Chambers |52 and |53 are provided at their lower ends with washout doors 290 and 29| at the ends of a cross chamber 293 which connects the lower ends of the spill chambers. In Figures 3 and 3l, reference numeral 294 designates a spill leg extending downwardly from chamber 293.

Reference numbers 295 and 299, Figures 3, 4 and 5, designate washout doors which give access to the vat circles just below the front head 63. Reference numerals 291 and 298 designate washout doors giving access to the inlet `59 and lower portion of the circulating stock chamber |49. A washout door 2| gives access to the bottom circles on the drive side of the machine while on the tending side of the machine, a dump valve 289 is provided for both bottom circles.

Referring to Figures 3 and 29, reference numeral 2|!) designates an opening in the inner side wall ofy member 42, this being ordinarily of the same size and disposition as the washout door 2|0 as seen in Figure 5, the opening extending from close to the'mold down to the bottom circle. The outer margins of opening 2 i9 provide a seat for a gate 2| which is faced over its whole inner surface with soft gasket rubber 2|2. Gate 2|| has at its upper end a rearwardly projecting lug 2|3 received between depending legs of a bracket 2 |4 which support a pin 2|5 passing through an opening 2|6 in lug 2|3, t-he opening being horizontally elongated, in the closed position of the gate shown in Figure 29, so as to permit the gate to set evenly throughout. The gate is disposed in a chamber 2liI closed by a side plate 218. Member 42 provides end walls for the chamber 2|1 and in these walls is journalled a horizontal rock shaft 2 9 to a projecting end of which is iixed a handle 22D. Keyed to shaft 2|9 within cornpartment 2 1 is a radially projecting socket member 22| in which is threaded the shank of a pin 222 which is connected by a toggle link 223 with flanges as at 224 on the back of gate 2| In the full line position of parts, Figure 29, the toggle is slightly broken downwardly and handle 229 is held against an abutment portion 225 by axially movable pin 226. By pushing pin 228 to the right, Figure 3, handle 220 can be swung downwardly to open the gate, the parts assuming the dotted line position, Figure 29, and being retained by a sliding pin 221 which takes over the handle. Any

8 liquid in the vat ows'through chamber 2 I1 Yand out'to a sewer 0r drain through a bottom opening 228. When the valve is open, both the outer and inner circles are simultaneously dumped.

The mold 4| comprises a pair of concentric end rings 229 and 248 to which are secured a multi# plicity of forwardly pitched vanes or blades 23|, Figures 6 and 23 to 2'7.

The end ring 229 comprises a portion 230 having an inner face 238 in Which is formed a number of concentric annular grooves 232. The ring portion 239 has an outer peripheral face 233 which terminates at a radial shoulder 234 surmounted by a conical face 235 which extends upwardly and outwardly to an annular groove 236 bounded outwardly by an annular end iiange 231 having an`outer flat face 238. The inner face of ring portion 23D is provided with an annular rabbet 239.

Between the faces 234 and 238, ring portion 239 is provided with a multiplicity of forwardly pitched grooves 249. Each vane 23| is in the form of a relatively thin slat of suitable metal, such as stainless steel, with its longitudinal edges preferably rounded as particularly shown in Figure 24. Adjacent each end, the vane is cut away at its lower margin to provide a reduced portion 24| which is received in a slot 249. The depth of the slot 248 is indicated by the line 242 in Figure 26 and below this line, the shoulder 243 of the Vane abuts the face 234 of ring member 230. The top of each slot 240 is lled with weld metal 244 and smoothed oir". To further secure the vanes in place, they are notched in register with the groove 236 and a ring 245 is shrunk into the groove, thereby securely locking th vanes to the ring member.

The ring 229 also includes an internally toothed ring gear 249 which is screwed to the outer face of ring member 239 and extends into the rabbet 239, and between the rabbet and face 238 an annular Vtrack 241 is screwed to the inner face of the ring member, the track having a diameter equal to the pitch diameter of gear 246.

The other ends of the vanes 23| are similarly secured to the other end ring 248 which is of the same construction as ring 229. Reference numeral 249 designates intermediate rings of round cross section which are threaded through opening in the vanes 23| and welded in the manner particularly shown in Figure 24. Rings 249 are originally split, having their ends welded together after assembly with the vanes.

As shown in Figure 27, the outer edges of the vanes are provided with notches 23| which succeed each other spirally around the cage constituted by the rings and vanes, and have set therein a winding wire 259 which, as shown in Figure 23, is in the form of a narrow strip disposed on edge in the notches. The winding wire supports a backing wire 25| which, in turn, supports a face wir-e 252 and the ends of the backing and face wires are clamped against the outer faces of the end rings by clamping rings 253 and 254. These three wires constitute the mold covering, as herein contemplated.

In Figure 27, another type of intermediate ring is shown at 249. The vane and ring are complementarily notched in egg box fashion With the inner face of the ring flush with the inner edge ofthe vane to provide an uninterruptedrectilinear line along the inner edge of the vane,

this line constituting an element of an imagican be used in the same cage. i

The mold, constructed as described, is extreme- 1y rigid. The forward pitching of the vanes is designed to provide a mild inward pumping action, thus avoiding injury to the forming web even at high speeds. In a 66" cylinder mold, for example, the vanes may have a width of 2% and a thickness of ML". As here shown, each vane is pitched forwardly 45 to a radius intersecting the half depth of the vane. The spacing of the vanes is about 1%. between centers so that the total number of vanes is 150.

Shelves 255 and 256 projecting outwardly oi the middle side wall sections 48 and 53 carry bearings 251 and `258 which may be shimmed as required and which support a mold drive shaft 25.9, Figures 1 to 5 and 28. As shown in the latter figure, in particular. the shaft 259 com,- prises a central portion 266 in the form of a forged tube. Driven into the left hand end of the tube is a journal 261 on which are keyed a roller 262 and gear 263, the diameter of the roller being the pitch diameter of the gear. The roller engages the track `21,11 and gear 263 engages the gear 245. The left-hand extremity of shaft 259 is `formed for coupling to a suitable drive motor. Reference numeral 264 designates a spacer sleeve on the journal 26|. A journal 265 is driven into the right-hand end of the tube 266 and has keyed thereon a roller 266 and a gear 261, the same as roller 262 and gear 266, which engage the track and internal gear of the mold end ring 268. The journals are packed where they pass through the mold side wall portions 68 and 53.

In addition to the drive shaft 259 at least two cooperating positioning shafts are provided, and in the present instance three are shown and designated by the referencenumerals 266, 266 and 216, the shaft ends being supported in radially adjustable bearings 21|, 212 and 213 on the tending side and in bearings 216, 215 and 216 on the drive side. In Figure 5, the openings in the vat side wall portion 53 through which the positioning shafts pass are indicated at 211, 218 and 219, similar openings being provided in the vat side section 46. The bearings are bolted to the mold side wall sections through slots parallel to the mold radius intersecting the axis of the associated shaft. Radial adjustment is effected by threaded studs as at 26| extending through lugs as at 282 and equipped with clamping nuts.

Positioning shafty 269 is shown in Figure 6 and like the drive shaft, comprises a central tubular section having journals driven in its ends. Fixed on the left hand journal are a roller `263 and a gear 2.85` which respectively engage track 261 and gear 266. Fixed on the right-hand journal of shaft `269 isA a` `:roller 265 which engages the track of the mold end ring 266, and other rollers could engage intermediate mold rings such as the rings 249 of Figure 27. The diameter of rollers 263 and 295` is the pitch diameter of gear 266 so that they rotate with the tracks without slipping. Means such as disclosed. are provided for driving the positioning shafts so as to prevent the possibility of their standing still so that the rollers would be worn unevenly and would thus cause vibration when again rotating.

The illustrated `position for the drive shaft 259 is selected since, as will be hereinafter described, it enables the shaft to be positioned `in a slice box with. the zone `of engagement of the gear teeth out of water; Furthermore, this positioning of the relatively` strong drivev shaft` enables the Weight of the customary couch roll and its lever weighting, in addition te the weight ofthe mold,

.are parallel to the end plate.

to be supported without distortion of the shaft. Each end of the mold is driven so that torsional strains `are avoided.

Reference numerals 286 and 281 represent washout plugs at the tending side of the mold end and reference numerals 286, 288 designate washout plugs in the side wall at the drive side of the mold end.

In Figure 6, reference numerals 286 and 296 designate chime rings in the form of arcuate angles which are xed to the vat side, extending to the top of the latter, with outer peripheral surfaces flush with the peripheral surfaces of the ring gears, whichlatter, `constitute cooperating chime rings. Reference numerals 29H and 292 designate garter straps which bridge the clear.- ance between the chime rings. As shown in Fig.- ure 23, the strap 29| comprises an annularly channeled rubber strap 293 straddling the clearance .with grooved legs resting cn the rings, the rubber strap beingfixed to a backing strap 294 of heavy canvas or the like. The ends of the straps are equipped with threaded studs which are connected by nuts with ears provided on brackets 295, 296, 291, and 298, Figure 1, xed on the middle side wall portions of the vat. The straps are readily removable to permit the removalof the mold.

Referring particularly to Figures 6 to 14, a vacuum box structure generally designated by the reference `numeral299 comprises a iiat horizontal base plate 366 which extends between vertical parallelend walls 36| and 362 of which the former appears in elevation in Figure 9. The end plates are adapted` to be screwed against the inner faces ,of the ,removable middle side walls of the vat. Spaced inwardly of the end plate 36| are aligned vertical wall portions 362 and 364 which Similar wall por.- tions `365 `and 366 are similarly spaced inwardly of plate 362. The `wall portions 363 and 366 are shown in `elevation in Figures 16 to 12 and from these figures it will be seen that their upper edges are .curved on the center of the mold and on a diameter slightly less than the diameter of the path of the inner edges of the vanes 23|, .this path beingindicated -by the dotted circle 361. In Figure 9 the dotted circle 361 is the outer periphery of gear 246, in Figure l1 the circle 361" is the addendum line of gear 246, and in Figure 12 the circle 361'" is the inner periphery of the roller ring 261.

Reference numeral 366 designates a horizontal wall in a plane above the wal-l 366 and `having its ends xed to the` end Vwalls* 36| and `362. A vertical wall 369 extends between plates 366 and 368 and has its ends securedito the end walls 36| Eand The outer edge of plate 363, within the mold, extends adjacent the circle 361 and has fixed thereto a sealing strip 316 which is about 14g" inwardly of circle 361. Aligned plates 3H andA 312 extend between the outer, lower margin of plate 368 andl the adjacent edge of plate 366, the inner ends of plates 3| i and 312 being spaced apart to provide an open central recess 3|3. Reference numerals 316 and 315 designate pipes which extend `through the end plates 36| and 362 and through walls 316 and 311 which close the sides of the cavity 3|3. The outer end of one or the other of pipes 3M and SI5 is plugged while `the outer end of the other pipe, shown as being the pipe 3 I 4, Figure 6, is in connection with a suction pipe 336.

Reference numeral `3|8 designates a horizontallybent wall rising from plate 366 and extend- Ving between wall portions 304 and 306 and having a vertical upper portion adjacent wall 309 provided along its upper edge with a sealing strip 3|9 which is spaced about 14e" from the circle 301. A vertical wall 320 extends between wall portions 303 and 365, and an arcuate plate 32| connects the top of wall 320 and the outer edge of the bottom wall 300, the outer surface of wall 32| lying close to the circle 301. A sealing strip 322 extends along the lower outer margin of wall 32| and is spaced about l inwardly of circle 301. Reference numerals 323 and 324 designate vertical wall portions extending between walls 30| and 303 and between walls 302 and 305, respectively. As indicated in Figures and 11, thev wall portion 323 has a bottom recess 325 which permits free i'low along the top of plate 300.

As will be seen from Figure 6, the vertical wall portions as at 304 and 306 are adjacent the exposed inner faces of mold rings 248 and 229, respectively, so as to `iorm seals therewith, the forming of the seal being aided by the grooves as at 232 in the ring face, Figures 23 and 26, which hold water. Moreover, these wall portions can coact with the end rings to prevent axial movement of the mold. Walls 308, 309 and 3| 8 dene a dry box 326, it being noted that the top of plate 308 is above thelevel l in the vat, Figure 5. Walls 3|8 and 320 dene a slice box 326' which is upwardly open and which receives the drive shaft 259, a section through the portion 260 of the drive shaft appearing in Figure 5. The end wall plates are downwardly recessed, as shown, in order to pass the drive shaft.

Reference numeral 321 designates a pipe whose ends .extend through the end walls 30| and 302 and are closed by washout plugs 328 and 329. Centrally pipe 321 has a connection 330 with the dry box 326. On the tending side of the machine pipe 321 has a bottom opening communicating with a vertical conduit 33| formed in the middle mold side wall section 48 and terminating downwardly in a chamber 332 formed in the base mem- Vber 42. A baiile 333 extends across the top portion of chamber 332 to the right, Figure 3, of conduit 33|. Ihe chamber has an outlet 334 to the `left of and below the` baffle and an outlet 335 to the right of and above the lower end of the bafe.

In Figures 7 and 9, reference numeral 331 designates a dam rimming, an opening 338 formed in plate 300 between w'all portions 362 and 305, the opening 338 having a connection 339 with a pipe section 340 which runs through wall 302 to an opening in the adjacent side wall oi'` the Vvat in connection with a pipe 34|, Figure 4.

Reference numerals 342 and 343, Figures 1 and 10 to 12, designate sealing strips secured to the edges of plate 300 between walls 30|, 363, and 302, 305, respectively. Referring to the strip 343, its outer edge is contoured to form a seal with adjacent parts. The edge portion 344 extends close to the track 241 of the mold ring 229 and the edge 345 is closely adjacent the teeth of gear 246. The edge 346 lies closely along the outer face of the gear 246 and the edge 341 extends againstthe chime ring 289. Edge 348 liesI against the vat side wall structure. It will be seen that the Ysealing strip 342 Vis conformed like the strip 343.

' The wall 308 is contoured as shown in Figure '1 and in the sectional views of Figures 10 to 12. It has an edge portion 349 lying close to the roller ring, as particularly shown in Figure 12, and an edge portion 350 which lies close to the teeth of the ring gear, Figure 11. The face 35| is close to the outer face of the ring gear and the edge 352 is against a xed chime ring of the Vat, while the notch 353 receives the garter strap bracket 281, Figure 1. A similarly contoured plate portion 3080' is provided between walls 302 and 306, the notch 353a receiving the garter `strap bracket 295, Figure 1.

In Figures 3, 4, 5 and 33, reference numeral 354 designates a couch roll disposed above the slice box 326' and reference numeral 355 designates a felt. Disposed in the slice box just in advance of the couch nip is an outwardly faced channel 356 having arcuate lips of a width to bridge the space between adjacent vanes and disposed about a 1l-6 away from the path of the inner edges of the vanes. The channel 356 may Vbe supported at its ends by the wall portions 304 and 306. Reference numeral 351 designates an opening at one end of the channel in connection, through a suitable control valve, with the mill air pressure system. The channel can be drained through a valve 358 at one end of the channel and toward which the channel bottom slopes.

Reference numeral 359 designates a slice cooperating with the felt, the .slice water dropping into inclined troughs 360 and 36| which deliver the water onto plates 368 and 308a, Figure 7 so as to provide a water seal along edges of the plates, an effective seal being thus provided between the ring gears and roller tracks and other adjacent structure.

Reference numeral 362 designates Va. shower directed against the mold face outwardly of the slice box.

Referring to Figure 33, the white water is led from connection |5| through a pipe 363 to a mixer 364 of the type disclosed in my prior Patent No. 2,354,007 of July 18,1944. If a screen is used in connection with the vat system, dilution water for the same may be taken from conduit 363 by a pipe 363. A pipe 365 is in connection with the adapter |42 at the circulating stock outlet and leads to the mixer 364. The level of the stock in the circulating stock chamber |40 is controlled by a choke valve 366. In other words, when the valve 366 is opened fairly wide, the flow from the chamber |40 through adapter |42 and pipe 365 is increased, thereby lowering the level of the stock in the chamber |40 and, conversely, when the valve is partially closed, the discharge will be decreased and the level will be raised. New stock can be admitted to the mixer from a pipe 361 controlled by a choke Valve 368. Water from the slice box 326 is led from the opening 340 to pipe 365 through a pipe 369. The stock mixture is sent by a pump 310 to an inner conical tank 31| of an up-iiow head box 312, the stock flowing evenly over the upper edge of tank 31| and down into the annular space between the latter and an outer conical tank 313 which is upwardly open for air escape. The stock is led from the bottom of tank 313 through a conduit 314 to a flow spreader 315 preferably of the type disclosed in my co-pending application Ser. No. 575,988, filed of even date herewith, now Patent No. 2,465,445, dated March 29, 1949. The flow spreader delivers to the conduit section ||3 which is in connection with the mold inlet.

The outlet 334 of chamber 332, Figures 3 and 6, is in connection with a water leg 316 which terminates downwardly in a box 311. Outlet 335 of chamber 332 is connected by a pipe 318 with a vacuum header 319. Interposed in pipe 318 are a bleeder valve 380. a gauge 38|, and a control of closely spaced, independent, axially extending, forwardly pitched vanes rigidly secured at their ends to said rings, a plurality of intermediate, reinforcing rings spaced along said vanes within the width thereof in coaxial relation to the end rings, and a foraminous mold covering on said vanes; a plurality of spaced, parallel rotary shafts supported by the vat side walls, extending through the open ends and the interior of the mold, engaging the two end rings at circumferentially spaced points above and below the axis thereof and lconstituting the sole supporting and positioning means for the mold, means for driving at least one of said shafts for rotating the mold; compartmenting means carried by the vat side walls, extending into the open ends of and continuously through the mold and disposed in sealing contact with the inner surface thereof throughout the length of the mold at a plurality of circumferentially spaced points, said compartmenting means defining a slice box extending from a point in advance of the pick-up point forwardly to a point just below the point of submergence and a suction zone extending from the last mentioned point in the direction of mold rotation past said point of emergence to a point just ahead of the pick-up point; and means communi'cating through at least one of said vat side walls for applying suction to the compartmenting means throughout said zone, said slice box being subject to atmospheric air pressure.

5. An apparatus in accordance with claim 4 characterized in that said compartmentin means includes a, substantially vertically extending wall making sealing contact with the mold interior just in advance of said pick-up point and a horizontally extending wall making sealing contact with the mold interior below said submergence point, the space above the horizontal wall and ahead of the vertical wall constituting the slice box and the space between the horizontal wall and the vertical wall in the direction of rotation of the mold, constituting the suction zone.

6. A cylinder machine in accordance with claim 4 characterized in that said compartmenting means includes a chamber in advance of said pick-up point for delivering air under pressure to the interior of the mold throughout the axial length thereof to facilitate picking up of the web.

7. A cylinder machine in accordance with claim 4 characterized in that said compartmenting means divides the suction zone into a first compartment for the reception of White water and a second compartment constituting a dry box, the latter being immediately in advance of the slice box.

8. A cylinder machine in accordance with claim 4 characterized in that said compartmenting means comprises a plurality of partition members having means associated with their edges arranged to seal with the exposed inner faces of said end rings.

9. A paper machine cylinder having an open,

unobstructedV interior, comprising coaxial end rings each having a great plurality of slots extending inwardly from its outer surface toward, but terminating short of, its inner surface, all of said slots being disposed in angular relation to radii passing therethrough, a plurality of relatively thin, independent vanes extending axially of the cylinder, each vane being disposed in an axially aligned pair of slots in the two end rings and pitched forwardly with respect to the direction of rotation of the cylinder, means iixedly securing the vanes in the slots disposed exclusively within the width of the vanes, and a plurality of intermediate rings secured to said vanes within the width thereof so that said intermediate rings do not interrupt the inner edges of the vanes or obstruct the interior of the cylinder.

10. Structure according to claim 9 wherein the intermediate rings pass through openings in the vanes.

11. Structure according to claim 9 wherein the intermediate rings are set in notches in the inner margins of the vanes.

12. Structure according to claim 9 wherein the end rings have internal gear teeth.

13. Structure according to claim 9 wherein the end rings have internal gear teeth and include internal annular tracks.

14. Structure according to claim 9 wherein the end rings have internal gear teeth provided on removable ring portions.

15. Structure according to claim 9 wherein the end rings have internal gear teeth provided on removable ring portions which have peripheral chime faces.

PHILIP H. GOLDSMITH.

REFERENCES CITED The following references are of record in the iile of this patent:

UNITED STATES PATENTS Number Name Date 587,918 Bidwell et al. Aug. 19, 1897 1,091,941 Marx Mar. ,31, 1914 1,414,404 Glasel May 2, 1922 1,457,349 Crandell June 5, 1923 1,589,119 Crandell June 15, 1926 1,589,120 Crandell June 15, 1926 1,627,882 Berry May 10, 1927 1,833,910 Parker Dec. 1, 1931 1,911,310 Ellis May 30, 1933 1,995,802 Forman May 26, 1935 2,148,376 Leeson Feb. 2l, 1939 2,188,484 Peterson Jan. 30, 1940 2,240,869 Specht May 6, 1941 2,329,553 Newbould Sept. 14, 1943 2,363,786 Goldsmith Nov. 28, 1944 FOREIGN PATENTS Number Country Date 151,856 Germany May 26, 1904 24,835 Sweden May 30, 1908 27,578 Sweden Oct. 23, 1909 

